DE860548C - Process to improve the resistance to heat aging of plasticizer-containing electrical insulation films based on cellulose esters - Google Patents

Description

Process for improving resistance to heat aging of plasticizer-containing electrical insulation films based on cellulose esters Production of plasticized insulating films from cellulose ester solutions is common observed that the addition of plasticizer greatly increases the thermal stability of the films is reduced. Above all, this disadvantage is particularly troublesome with such Plasticizers, which in addition to their plasticizing properties have other beneficial properties Have properties, for example by improving the electrical values, like stearic acid esters, or reduce water absorption like phthalic acid esters.

It was found that plasticizers, which are unsaturated Have double bonds or contaminate substances with unsaturated ones Contain double bonds, the premature embrittlement of the foils with heat aging favor. The presence of unsaturated double bonds is e.g. Determination of the bromine number according to H a n u s has been proven. According to this determination, in the case of phthalic acid esters higher aliphatic alcohols bromine numbers from 2 to zo, in the case of cyclohexyl stearate such found from 25 to q0.

The embrittlement of the film by such plasticizers can now, as has been found to be avoided by adding small amounts of stabilizers. The present invention therefore relates to a method for improvement the resistance to heat aging of plasticized electrical insulation foils based on cellulose ester, which is characterized in that the casting solutions for the Films in addition to the plasticizer or plasticizers aromatic, at least one free O H or. Compounds containing N H group can be added.

Aromatic substances can be used as stabilizers Presence of free O H or. free NH groups are marked, i.e. bodies of the type of naphthols, cresols, thiazoles, indoles and oxybenzenes.

Progress lies in the knowledge that by adding plasticizers and stabilizer, the disadvantage of premature embrittlement in heat treatment can be eliminated. In addition, there was the surprising fact that the stability of such. Films even increased beyond those of the starting cellulose ester can be; an effect that can be achieved by adding a stabilizer to the cellulose ester alone so far could not be achieved to this extent, but only in the connection of Plasticizer and stabilizer occurs. '' Even small amounts of plasticizers and Stabilizer are sufficient to significantly increase the resistance of the To effect heat aging, so that after the method also the type of practical obtained almost plasticizer-free film with greatly improved heat resistance can be.

The reaction mechanism of the process can perhaps be explained by the assumption that primarily an action of the stabilizer on the plasticizer occurs and that the effect can only be explained by the interaction of plasticizer, stabilizer and cellulose ester. Example i 150 g of cellulose triacetate are dissolved in 850 g of a mixture of methylene chloride: methanol-9: i and 1.5 g of bis-isobutylresorcinol as a stabilizer and 35 g of cyclohexyl stearate as a plasticizer are added to the solution. After thorough mixing, a film is produced in a known manner. In the absence of the stabilizer, such a film is completely embrittled and unusable after 2 days of treatment in a drying cabinet at 170 °. If the stabilizer is present, the film can still be used after 4 days of heat treatment. Example 2 A film which was produced by dissolving 150 g of cellulose triacetate in 850 g of a mixture of methylene chloride: methanol-9: i becomes brittle, for example, after 4 days when subjected to heat treatment at 170 °. If 0.5% mercaptobenzothiazole and 2% cyclohexyl stearate are added to the solution of the same cellulose triacetate, the film produced therefrom can still be used after 7 days in the heat treatment described above.

Claims (2)

PATENT CLAIMS: i. Process to improve the durability at the heat aging of plasticized electrical insulation films based on cellulose esters, characterized in that the casting solutions for the films in addition to the plasticizer or the plasticizers still have an aromatic, free OH or. Containing NH groups Compound or compounds are added. 2. The method according to claim i, characterized characterized in that the casting solutions only contain very small amounts of plasticizers added to the aromatic compounds containing free OH and NH groups.